Question

1.
A Bunsen burner is lit and used to heat a water bath. This is a conversion of
in the bonds of methane
gas and oxygen to
as the temperature of the water increases and the molecules of water increase
their speed.​

Answer 1

Explanation:

1. A Bunsen burner is lit and used to heat a water bath. This is a conversion of ______ in the bonds of methane gas and oxygen to as the temperature of the water increases and the molecules of water increase their speed. Las O one form of kinetic energy, another form of kinetic energy O kinetic energy potential energy O one form of potential energy, another form of potential energy O potential energy, kinetic energy 2. At 25.0 °C and 1.50 atm, 3.00 L if a gas is compressed to 0.150 L of gas. Calculate the amount of work performed on the gas as it is compressed. O 0.0422] -433] -4.15] 1270) 3. Consider the process in Question 1: A Bunsen burner is lit and used to heat a water bath. The reaction of which enables the Bunsen burner to operate is ______The sign of AH is O exothermic positive O endothermic; positive O exothermic negative O endothermic negative

Answer 2

Answer: potential energy, kinematic energy

Explanation: Potential energy is energy available by virtue of an object's position. As the methane gas and oxygen gas doesn't do work this is potential energy and it is converted to kinematic energy because the water starts to heat up therefore work is being done. Kinetic energy is the energy produced by a moving object.